By migrating its EHR database from RISC to an open standards-based architecture, University Health lowers TCO and boosts performance and flexibility.
See how, by migrating its EHR database from RISC to an open standards-based architecture, University Health is slashing total cost of ownership (TCO) while boosting performance, flexibility, and coordinated care for patients.
Case Study: composers Justin Lassen and Doyle W. Donahoo use Intel® Solid-State Drives to increase sample load and eliminate audio glitches.
Intel® Solid State Drives help composers capture creativity by accelerating sample loading and eliminating audio glitches.
Explore Intel® Xeon® processor E5-2600 v3 product family software solutions for technical computing, cloud, data center, security, and more.
Explore technical computing, telecommunications and cloud, financial, data center optimization and security, core business applications, and big data analytics software solutions for the Intel® Xeon® processor E5-2600 v3 product family.
Shows the Intel® Xeon Phi™ coprocessor-based platform derivative pricing benchmark performance for the financial services industry.
Compares the Black-Scholes*, Monte Carlo*, Monte Carlo RNG, binomial options, and STAC-A2* derivative pricing benchmark performance for the financial services industry on a platform based on the Intel® Xeon Phi™ coprocessor.
Success Brief: ITER powers a supercomputer with 8,820 Intel® Xeon® processors for nuclear fusion simulation and modeling performance and scalability.
Fusion research group ITER powers the Helios supercomputer with 8,820 Intel® Xeon® processors for system modeling and simulation performance and scalability in testing controlled nuclear fusion.
Case Study: Biotech firm BASF Plant Science refreshes crop development on the Intel® Xeon® processor E7 family, reducing new product time-to-market.
Case Study: Biotechnology company BASF Plant Science refreshes crop development computing resources on the Intel® Xeon® processor E7 family, reducing command times while supporting more applications for accelerated research and less time to market.
Success Brief: Dörrer + Broßmann optimizes performance, cutting car part modeling time to five hours with Intel® Xeon® processor-based clusters.
Success Brief: Dörrer + Broßmann optimizes their modeling performance and cuts the time needed to model car parts from seven days to five hours with clusters based on the Intel® Xeon® processor E5 product family.